The role of deposition in limiting the hazard extent of dense-gas plumes

Dillon, Michael

doi:10.1016/j.jhazmat.2008.09.044

Cited by 14 publications

(5 citation statements)

References 29 publications

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“…Of this, 12 metric tons will react quickly ([A] 2 is the faster-reacting content). This is consistent with the conclusions from modeling studies for a stable atmosphere and low-wind conditions [11,20,21].…”

Section: Implications For Large-scale Releasessupporting

confidence: 92%

“…In addition, note that the effective rate of Cl − appearance is initially fast and slows as [Cl 2 ]t is increased. This demonstrates that a constant deposition velocity for Cl 2 cannot be universally applied to large-scale releases, though constant deposition velocities were used in prior modeling studies [11,20,21]. Second, the inset to Fig.…”

Section: Chloride Measurementsmentioning

confidence: 99%

“…velocity-the density of Cl 2 is 2.5 times higher than air [10]-though this is disputed by the assumptions in a recent modeling study [11].…”

Section: Introductionmentioning

confidence: 99%

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Cl2 deposition on soil matrices

Hearn¹,

Eichler

Hare³

et al. 2012

Journal of Hazardous Materials

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Section: Implications For Large-scale Releasessupporting

confidence: 92%

Section: Chloride Measurementsmentioning

confidence: 99%

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Cl2 deposition on soil matrices

Hearn¹,

Eichler

Hare³

et al. 2012

Journal of Hazardous Materials

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“…What has happened since 2008 and 2010, and are there still knowledge gaps in estimating removal processes? The Dillon 56 comprehensive review of deposition modeling approaches and evaluation histories for dense TIC plumes has been very useful. Limited deposition experiments were carried out as part of JR I and a few results of the analysis of these data and some laboratory data have been presented 57–59 .…”

Section: Model For Transport and Dispersionmentioning

confidence: 99%

Gaps in toxic industrial chemical model systems: Improvements and changes over past 10 years

Hanna¹,

Mazzola

Chang

et al. 2021

Process Safety Progress

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To assess the hazards of the releases of toxic industrial chemicals (TICs) to the atmosphere, comprehensive model systems are often used, which begin with the scenario definition and end with an estimate of health risk. In 2008 and 2010, the US Department of Homeland Security and Defense Threat Reduction Agency sponsored reports that identified knowledge gaps in TIC modeling. The current paper discusses which of the knowledge gaps were satisfactorily resolved in the past 10 years by new theoretical and experimental research, such as the 2010 and 2015-2016 Jack Rabbit field experiments. For example, the linked source emissions and transport and dispersion (T&D) models have been shown, in comparisons with Jack Rabbit II observations, to not have large mean biases. Consequently, the T&D models are less likely to be the cause of model system overpredictions of casualties observed after large TIC accidental releases, such as the Festus, Macdona, and Graniteville chlorine railcar incidents. It may be that the deposition models and/or the health effects models still need improvement. In addition to comments on the knowledge gaps identified 10 years ago, a few new knowledge gaps are addressed, such as indoor T&D and deposition, and estimating the magnitude of the saturation deposition value for various substrates and chemicals. K E Y W O R D S anhydrous ammonia, chlorine, dense gas dispersion, hazards analysis, health risk, Jack Rabbit II field experiment, TIC 1 | INTRODUCTION There are hazards to the public due to the releases of toxic industrial chemicals (TICs) to the atmosphere as a result of accidents or intentional acts. After several incidents in the 1990s and 2000s, the US Department of Homeland Security/Chemical Security Analysis Center (DHS/CSAC) and the US Defense Threat Reduction Agency (DTRA) mounted a series of reviews, research initiatives, and laboratory and field studies to improve our knowledge of the characteristics of TICs released to the atmosphere, and to further develop and test improved models of the transport and dispersion (T&D) of TICs. Rankings were developed of the TICs posing the most risk. The rankings were based on factors such as mass of material stored and/or transported, superheat (difference between ambient temperature and boiling point of TIC), and concentration or dosage at which health effects occur.TICs such as chlorine, anhydrous ammonia, and sulfur dioxide were

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“…A multitude of sensors and prepared artificial deposition matrices surrounding the release site are utilized to analyze the dispersion, transport and interaction of Cl2 and other gases post-release. This area of research has also expanded to account for deposition beyond greenbelts, such as on structures and other manmade objects (Dillon, 2009; Jonsson et al, 2005). In regards to greenbelts (areas of vegetation in and around urban development), there has been some research performed in the area of phytotoxic injury as a result of chlorine exposure, including the use of phytotoxic indicators during post-accident investigation (Griffiths and Smith, 1990; Khan and Abbasi, 2001).…”

Section: Introductionmentioning

confidence: 99%

Assessment of an irritant gas plume model for epidemiologic study

Jani

Wilson

Wickliffe

et al. 2017

International Journal of Environmental Health Research

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Previously, we reported the development of a Hazard Prediction and Assessment Capability (HPAC) plume dispersion model of the 2005 Graniteville, South Carolina, USA accidental release of chlorine (Jani et al, 2016). Here, we assess this model by spatial and statistical comparison with post-incident observed environmental indicators of exposure and other types of observations. Spatial agreement was found when the model was compared to phytotoxic bleaching and corrosion events observed in 2 km radius around the release site. When spatially compared to locations of injured or killed animals, model predictions of the plume footprint were in relatively good agreement. Model-predicted human casualties differed from observed casualty counts primarily due to the shielding effect of buildings. A statistical comparison of observed dog health outcome-derived exposure versus model predicted exposure showed relatively good agreement, particularly when a sub-cohort of indoor dogs was excluded. Evaluation and assessment of the building infiltration effect would further improve the model prior to application in epidemiologic study.

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The role of deposition in limiting the hazard extent of dense-gas plumes

Cited by 14 publications

References 29 publications

Cl2 deposition on soil matrices

Cl2 deposition on soil matrices

Gaps in toxic industrial chemical model systems: Improvements and changes over past 10 years

Assessment of an irritant gas plume model for epidemiologic study

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